Electricity and OR Electrical safety

Question 1

What is current?

Answer 1

the flow of electrons

Question 2

What is capacitance?

Answer 2

stored charge is discharged from defibrillator

Question 3

What is Ohm’s Law?

Answer 3

I= V/R
where V= voltage= electromotive force= potential difference
I= current- quantity of electrons measured in Amperes
R= resistance-force in opposition to flow of electrons measured in Ohms
analogous to Q= P/R

Question 4

What is electric current?

Answer 4

how much charge (how many electrons) pass a certain point in a circuit per unit time

Question 5

What is a Coulomb?

Answer 5

a unit of measure of electric charge

just like “gram” is a unit of measure of mass

Question 6

How many electrons are needed to generate 1 Coulomb?

Answer 6

6.24 x 10^18 electrons carry a charge of 1 Coulomb

Each electron has a charge of 1.60 x 10^-19

Question 7

1 ampere is

Answer 7

the movement of charge carried by 6.24x10^18 electrons passing a certain point in 1 sec
or 1 Ampere of current the movement of 1 Coulomb of electric charge passing a certain point in 1 sec

Question 8

In order to have flow, there must be

Answer 8

a complete circuit

Question 9

Voltage is lost as

Answer 9

electrons move through area of resistance

Question 10

What is impedence?

Answer 10

resistance to current flow that changes with frequency
consists of resistance plus other factors that effect electron flow
how resistance changes with changes in frequency

Question 11

A watt is

Answer 11

the unit of power (work done/unit time)

the product of voltage and current

Question 12

A watt-second is

Answer 12

work or energy

Question 13

How is energy measured in a home versus in a defibrillator?

Answer 13

defibrillator- Watt-sec

home- Kilowatt-hours

Question 14

Power is equal to

Answer 14

current x voltage

Question 15

A closed loop must have:

Answer 15

driving pressure (voltage) to force a current (ampheres) to flow through a Resistance in accordance with Ohm’s Law

Question 16

What is the current if the voltage is 120 and the resistance is 240 ohms?

Answer 16

current is 0.5 amps

Question 17

A conductor is

Answer 17

any substance that permits a flow of electrons
I.e. metals & human tissue
substance has loosely attached and easily lost electrons which permits flow electrons

Question 18

A nonconductor or insulator

Answer 18

have tightly bound electrons which do not permit electron flow
include: glass, rubber, plastic, dry wood, pure water

Question 19

What is a direct current versus an alternating current?

Answer 19

a direct current (DC, batteries)- the electron flow is always in the same direction
an alternating current (AC, electric company)- the electron flow reverses direction (Oscillates) at regular intervals
the oscillating frequency is measured in cycles per second or Hertz

Question 20

How many cycles of electrons (wavelength) can we get in 60 seconds?

Answer 20

60 Hertz (US)

Question 21

What is capacitance and a capacitor?

Answer 21

a measure of a substance’s ability to store a charge

a capacitor is an electrical device used for storing electric charge

Question 22

How does capacitance work?

Answer 22

it consists of 2 parallel conductors separated by an insulator (non-conductor)
can be AC or DC circuits

Question 23

Insulated wires running next to each other will produce capacitance

Answer 23

simply by being plugged in even though the equipment is NOT turned on

Question 24

The strength of the electric field is much greater when

Answer 24

there is more coiled wire which allows more atoms to be oriented–> stronger magnet

Question 25

Having an iron core with coil wrapped around

Answer 25

produces a much stronger magnet than with the coil alone (has more atoms and thus generates more electric field)

Question 26

Electrons flow from

Answer 26

negative to positive

Question 27

The electromagnetic field can

Answer 27

do work; it can push and pull magnets and push and pull electrons

Question 28

Electromagnetic fields can influence

Answer 28

other circuits in close proximity
a circuit where electrons are flowing generates a magnetic field that pulls or pushes electrons that are nearby (and can easily be pushed and pulled) and this generates a second current

Question 29

If the wire is coiled repeatedly around an iron core

Answer 29

the magnetic field induced can be very powerful

Question 30

In an AC circuit, inductance can electromagnetically

Answer 30

generate an opposing electromotive force (current in a nearby wire)

Question 31

A motor is

Answer 31

when we have a fixed magnet and rotating metal bar
the electric fields from the magnet are repelling the electric field from the wire
allows us to use repulsion between two sources of electromagnetic fields that oppose one another to do work

Question 32

A generator works by

Answer 32

have rotating magnets and a fixed bar; the electromagnetic fields are sufficient to move electrons through inductance which generates an electric current

Question 33

High impedance results in

Answer 33

low current flow

Question 34

Low impedance results in

Answer 34

high current flow

Question 35

Utility companies supply electrical energy in the form of

Answer 35

AC current of 120 V and 60 Hz

Question 36

To have a current flow, there must be a complete circuit with

Answer 36

a voltage source to drive the current through the resistance

Question 37

A short circuit or fault is defined by

Answer 37

a condition in which there is ZERO impedance with a high current flow

Question 38

A power cord consists of 2 conductors:

Answer 38

“Hot” conductor returns the current through the impedance
“Neutral” conductor returns the current to the source
the potential difference between the 2 conductors is 120 V

Question 39

A person can be shocked by

Answer 39

touching a wire directly or touching a conductor that is touching a wire

Question 40

Grounding equipment is

Answer 40

a way to prevent someone from being part of the circuit by attaching a metal wire from the device to the ground

Question 41

Electric shock can occur by

Answer 41

contacting AC or DC current (takes about 3x DC as AC to cause vfib)

Question 42

A person must contact the electric circuit at

Answer 42

2 points and there must be a voltage source causing current to flow in order to be shocked

Question 43

What is a macroshock?

Answer 43

large amount of current flow through a person

Question 44

What is a microshock?

Answer 44

very small amount of current flow through a person (Conditions: external conductor in direct contact with the heart such as a PA catheter) much smaller current would be needed to cause vfib in this situation because it has a direct line to the heart

Question 45

The severity of the shock depends on:

Answer 45

the amount of current (Amperes) and the duration of contact

Question 46

If an individual contacts an external source of electricity damage can be produced in 2 ways:

Answer 46

current can disrupt normal electrical function of cells

current passing through a resistance (the body) raises the temperature of the substance and can produce a burn

Question 47

At 100-300 mA

Answer 47

ventricular fibrillation will start, but respiratory center remains intact

Question 48

The recommended maximum allowable 60-Hz leakage current is

Answer 48

10 microamperes

Question 49

100 microamperes can cause

Answer 49

ventricular fibrillation if in direct contact with the heart such as a PA catheter

Question 50

If there is any buildup of charge on a device that is grounded

Answer 50

the grounding element allows the charge to go down to the ground and be discharged

Question 51

In the OR, our source is

Answer 51

not grounded but our equipment is

Question 52

Grounding can be used to describe several different principles:

Answer 52

the grounding of the primary electrical power supply

the grounding of electrical equipment itself

Question 53

Faulty equipment in the OR does

Answer 53

not present a shock hazard when plugged into an isolated power system

Question 54

In the OR, even though the power system is isolated from the ground,

Answer 54

the equipment case is still connected to an equipment ground

Question 55

All AC power systems and electrical devices

Answer 55

manifest some degree of capacitance

Question 56

There is a small amount of ________ ________ to the ground with our devices in the OR

Answer 56

“Leakage” current

The OR system is set to alarm for anything above 5 mA which may indicate a short circuit

Question 57

The electrically susceptible patient is

Answer 57

a patient with a direct external connection to the heart such as a PA catheter

Question 58

The electrically susceptible patient is protected against microshock

Answer 58

by an intact ground wire
-if the equipment ground wire is broken all 100 microamps of leakage current could flow through the catheter causing v-fib

Question 59

The Bovie or electrosurgical unit operates by

Answer 59

generating very high-frequency AC currents of anywhere from 500,000 to 1 million Hz
produces voltage as high as 3000 V
Produces close to 400 watts of power

Question 60

Heat is generated whenever a current passes through

Answer 60

resistance

Question 61

The amount of heat produced is

Answer 61

directly proportional to the square of the current and inversely proportional to the area through which the current passes

Question 62

The heat formula for ESU:

Answer 62

H= I^2 x A

Question 63

High frequency currents have

Answer 63

low tissue penetration and do not excite contractile cells and therefore do not cause V-fib

Question 64

The current for the Bovie must

Answer 64

enter the patient and be routed back to the ESU through using a return plate
Energy passes through the patient to the return plate with a large surface area that returns it safely to the ESU

Question 65

A properly applied return plate

Answer 65

covers a large surface area. No harmful heat is generated and no tissue damage

Question 66

The placement of the return plate needs to be

Answer 66

close to operative site
as far away as possible from EKG pads
ensure adequate gel and sufficient skin contact
not placed over scar tissue, hair, or implants

Question 67

The dispersive plate must cover

Answer 67

a large area so that the current density is below a level that will cause burns

Question 68

The current will seek to return to the ESU through alternate conductors if:

Answer 68

the dispersive plate is not properly applied to the patient
return plate is dislodged during the procedure
return plate cord is damaged or not properly connected
insufficient conductive gel

Question 69

Alternate conductors of current include

Answer 69

anything attached to the patient such as ECG leads/temperature probe

Question 70

What are the types of ESU units?

Answer 70

unipolar- current returns to unit via dispersive pad
bipolar: two electrodes that look like forceps-dispersive pad is not necessary and less energy than unipolar
Argon beam coagulator (unipolar)-uses a stream of argon gas to support the electric current